KR101330332B1 - Two-stage screw compression type refrigerating device - Google Patents

Abstract

The two stage screw compression refrigeration apparatus for compressing the refrigerant by the first stage screw compression section and the second stage screw compression section connected in series includes an oil supply passage for supplying oil to the bearing on the discharge side of the second stage screw compression section. And an oil discharge flow path for discharging oil from the bearing to the compression space of the first stage screw compression portion. With this simple configuration, oil can be supplied to the bearing on the discharge side even when the suction pressure at the first stage is increased and the discharge pressure at the second stage is lowered.

Description

Two Stage Screw Compression Refrigeration Unit {TWO-STAGE SCREW COMPRESSION TYPE REFRIGERATING DEVICE}

The present invention relates to a two-stage screw compression refrigeration apparatus.

BACKGROUND ART A refrigeration apparatus for compressing a refrigerant in two stages using an air cooled screw compressor is known. The rotor chamber and the bearing of the oil-cooled screw compressor need to be supplied with oil for cooling or lubrication. When using an oil-cooled screw compressor, generally, the oil isolate | separated from the discharged refrigerant | coolant is re-supplied to each part of a screw compressor by the discharge pressure of a refrigerant | coolant.

In the two-stage screw compression type refrigerator, the suction pressure in the first stage is determined by the evaporation temperature in the evaporator, and the discharge pressure in the second stage is determined by the condensation temperature in the condenser. In FIG. 3, the pressure condition in the 2nd stage screw compression type | mold refrigeration apparatus which a screw of 1st stage | paragraph and a 2nd stage screw are coaxial is shown. Since the intermediate pressure in the intermediate pressure portion between the first stage and the second stage is determined by the suction pressure in the first stage and the mechanical compression ratio in the first stage, it depends on the evaporation temperature. As shown, when the condensation temperature CT is low, the intermediate pressure may be higher than the discharge pressure.

In general, in the two-stage screw compression type refrigerating machine, the oil supplied to the discharge-side bearing of the second-stage screw is discharged from the discharge side of the first-stage to the intermediate pressure space on the suction side of the second-stage screw. However, if the pressure in the intermediate pressure space is higher than the discharge pressure, the oil supplied to the bearing on the discharge side cannot be discharged, and new oil cannot be supplied, resulting in insufficient lubrication and cooling, resulting in damage to the screw compressor.

In order to solve this problem, Japanese Patent No. 3837298 monitors the difference between the intermediate pressure and the discharge pressure in the second stage, and coolant is transferred from the intermediate pressure portion to the first suction space so that the intermediate pressure does not become higher than the discharge pressure. It is refluxing. In this configuration, additional control for adjusting the intermediate pressure is required, and power loss by refluxing the refrigerant from the intermediate pressure portion to the first suction space also occurs.

In view of the above problems, the problem of the present invention is a simple and efficient two-stage screw compression that can supply oil to the bearing on the discharge side even when the suction pressure at the first stage is increased and the discharge pressure at the second stage is decreased. It is to provide a type refrigeration apparatus.

MEANS TO SOLVE THE PROBLEM In order to solve the said subject, According to this invention, the two stage screw compression refrigeration apparatus which compresses a refrigerant | coolant by the 1st stage screw compression part and the 2nd stage screw compression part connected in series is the 2nd stage screw compression part. An oil supply flow path for supplying oil to the bearing on the discharge side, and an oil discharge flow path for discharging the oil from the bearing into the compression space of the first stage screw compression portion.

According to this configuration, the bearing on the discharge side of the second stage screw compression section in a compression space having a pressure between the suction pressure of the first stage screw compression section and an intermediate pressure between the first stage screw compression section and the second stage screw compression section. By communicating with, it is possible to secure a sufficient pressure difference to drain the oil from the bearing to enable the supply of new oil. This configuration does not require special control and its structure is simple.

Further, in the two-stage screw compression type refrigerating device according to the present invention, the oil supply passage is opened between the end face of the discharge side of the second stage screw compression portion and the bearing, and the oil discharge passage is The second stage screw compression portion may be opened on the opposite side.

According to this structure, the pressure required for the oil supplied to the oil supply flow path does not rise by the pressure loss in a bearing.

In addition, in the two-stage screw compression refrigeration apparatus according to the present invention, an oil separation recovery unit is interposed in the refrigerant circulation flow path on the discharge side of the second stage screw compression unit, and the oil supply flow path is separated in the oil separation recovery unit. One oil may be supplied.

According to this structure, the oil supply flow path can supply the oil isolate | separated from the gas discharged from the said 2nd stage screw compression part by the pressure of the discharged gas.

BRIEF DESCRIPTION OF THE DRAWINGS The figure which shows the structure of the two-stage screw compression type refrigeration apparatus which is one Embodiment of this invention.
FIG. 2 is a diagram showing the pressure in the two-stage screw compression type refrigerating device of FIG. 1. FIG.
3 is a view showing a pressure in a conventional two-stage screw compression refrigeration apparatus.

Fig. 1 shows a two-stage screw compression refrigeration apparatus 1 according to the present invention. The two-stage screw compression refrigeration apparatus 1 includes a two-stage oil-cooled screw compressor 2 and an oil separation recovery machine 3. And a refrigerant circulation flow path 7 through which a condenser 4, an expansion valve 5, and an evaporator 6 are provided, and a refrigerant is sealed.

The two stage oil-cooled screw compressor 2 has the 1st stage screw compression part 8 and the 2nd stage screw compression part 9 connected in series. The first stage screw compression section 8 is formed by receiving a pair of male and female first stage screw rotors 12 in a first stage rotor chamber 11 formed in the compressor casing 10, and a second stage. The screw compression part 9 accommodates a pair of male and female second stage screw rotors 14 in the second stage rotor chamber 13 formed inside the same compressor casing 10.

The first stage screw compression section 8 sucks and compresses the refrigerant from the suction port 16 connected to the suction flow path 15 connected to the refrigerant circulation flow path 7 on the upstream side, and discharges the refrigerant from the discharge port 17. Discharges into the intermediate pressure space 18 partitioned in the casing between the stage screw compression section 8 and the second stage screw compression section 9. The second stage screw compression section 9 sucks and compresses the refrigerant from the suction port 19 opened in the intermediate pressure space 18 and discharges the refrigerant from the discharge port 20 to the refrigerant circulation flow path 7 downstream.

The first stage screw rotor 12 and the second stage screw rotor 14 are rotatably supported by the bearings 21, 22, 23. In addition, one rotor of the first-stage screw rotor 12 and one rotor of the second-stage screw rotor 14 share the rotor shaft 24 so as to rotate coaxially.

The two stage oil-cooled screw compressor 2 includes a motor 25 for rotationally driving the rotor shaft 24 shared by the screw rotors 12 and 14. The motor casing 26 of the motor 25 is integrally connected with the compressor casing 10 and forms a semi-sealed structure. In the motor casing 26, a rotor 27 sharing the screw rotors 12 and 14 and the rotor shaft 24, and a stator 28 surrounding the rotor 27 are housed.

In the refrigerant circulation flow path 7 on the discharge side of the second stage screw compressor 9, an oil separation recovery unit 3 is provided. In the bearings 21, 22, and 23 of the two-stage oil-cooled screw compressor 2, oil separated from the refrigerant discharged by the two-stage oil-cooled screw compressor 2 by the oil separation and recovery machine 3 is an oil cooler ( 29 is supplied by the discharge pressure of the two stage oil-cooled type screw compressor 2 via the oil supply flow path 30 interposed.

The oil supplied to the bearing 21 on the suction side is sucked into the first stage rotor chamber 11 together with the refrigerant, and the oil supplied to the bearing 22 disposed in the intermediate pressure space 18 is an intermediate pressure space. By being sucked into the second stage rotor chamber 13 together with the refrigerant from the 18, it is finally discharged together with the refrigerant from the discharge port 20. On the other hand, the oil supplied to the bearing 23 on the discharge side is divided into the compression space separated from the suction port 16 and the discharge port 17 by the first stage screw rotor 12 being partitioned in the first stage rotor chamber 11. The oil discharge flow passage 31 communicates with each other so as to be discharged into the compression space of the first screw compression section 8.

In detail, the oil supply flow path 30 for supplying oil to the bearing 23 includes an end face and a bearing (on the discharge side of the second stage screw compression section 9 (second stage rotor chamber 13)). 23) open in between. Moreover, the oil discharge flow path 31 is open on the opposite side to the 2nd stage screw compression part 9 of the bearing 23. That is, the oil supplied to the bearing 23 flows out across the bearing 23 from the 2nd stage screw compression part 9 side. For this reason, the oil in the 2nd stage screw compression part 9 side of the bearing 23 is the pressure in the bearing 23 rather than the oil on the opposite side to the 2nd stage screw compression part 9 of the bearing 23. The pressure is as high as the loss.

In FIG. 2, the suction pressure Ps, which is the refrigerant pressure at the suction port 16 of the first stage screw compression unit 8, in the two stage oil-cooled screw compressor 2, of the intermediate pressure space 18 is shown. The range where the intermediate pressure Pm which is internal pressure and the discharge pressure Pd which is the refrigerant pressure in the discharge port 20 of the 2nd stage screw compression part 9 is shown.

The discharge pressure Pd coincides with the condensation pressure in the condenser 4, but varies between the line L1 and the line L2 in the drawing in accordance with the cooling temperature CT of the condenser 4. The horizontal axis in the figure is the evaporation temperature of the refrigerant in the evaporator 6, but since the suction pressure Ps of the two stage quenched screw compressor 2 depends on the evaporation temperature as shown, Can be. In the two stage oil-cooled screw compressor 2, since the mechanical compression ratio of the first stage screw compression section 8 is constant, the intermediate pressure Pm depends on the suction pressure Ps and evaporates on the line L4. Can vary with temperature. Since the pressure P ₃₁ of the oil discharge flow path 31 is a point during the compression of the second stage screw compression section 9, on the line L5 lower than the line L4 of the intermediate pressure Pm depending on the evaporation temperature. Move.

As shown in the figure, in the two stage oil-cooled screw compressor 2, the pressure P3l of the oil discharge flow path 31 changes to the pressure sufficiently lower than the discharge pressure Pd. Therefore, the oil discharge flow path 31 always has a sufficient pressure difference between the oil supply flow path 30 having the pressure equivalent to the discharge pressure Pd. Thereby, even if the pressure loss in the bearing 23 is taken into consideration, the oil supplied to the bearing 23 is sequentially discharged, and the newly cooled oil can be supplied to the bearing 23, thereby damaging the bearing 23. Can be prevented. The oil supplied to the bearing 23 also functions as a seal fluid that assists the shaft rod in the seal structure between the second stage screw compression section 9 and the bearing 23.

Claims (3)

It is a two-stage screw compression refrigeration apparatus (1) for compressing a refrigerant by the first stage screw compression unit (8) and the second stage screw compression unit (9) connected in series,
An oil supply passage 30 for supplying oil to the bearing 23 on the discharge side of the second stage screw compression section 9;
An oil discharge passage 31 for discharging the oil from the bearing 23 to the compression space of the first screw compression section 8,
The oil discharge passage (31) is a two-stage screw compression refrigeration apparatus in communication with the compression space of the bearing (23) on the discharge side of the second stage screw compression section (9) and the first stage screw compression section (8). The oil supply passage 30 is open between the end face on the discharge side of the second stage screw compression section 9 and the bearing 23.
The oil discharge passage (31) is a two-stage screw compression refrigeration apparatus is opened on the opposite side to the second stage screw compression portion (9) of the bearing (23). The oil separation channel 3 is provided in the refrigerant circulation flow path 7 on the discharge side of the second stage screw compression unit 9, and in the oil supply flow path 30. A two-stage screw compression refrigeration apparatus for supplying the oil separated in the oil separation recovery unit (3).

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